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1. Introduction

People encounter enormous numbers of chemicals present in the outdoor atmosphere and/or in the various facilities they use daily. Despite such diversity, not many of them have necessarily the potential to draw human's nasal attraction if their perception thresholds are in general not sufficiently low enough, regardless of abundance. In this sense, many types of scents, musks, fragrances, smells, odors, and pheromones are unique enough to draw a great deal of attention mainly by their presence at or near threshold levels which are far lower than those of common chemicals with poor odorant characteristics. It is known that most of the diverse characters of odor-related ingredients or expressions are commonly produced from various biota sources present in the biosphere, e.g., fauna, flora, bacteria, fruits, flowers, trees, meats, fresh/decaying foods, etc.

In light of the environmental significance of the various odor types characterizing certain odorous events, it is crucially important to be able to describe, both qualitatively and quantitatively, the concentration levels and/or relative composition of both major and minor components giving rise to such odorous conditions. Despite many advances achieved over the past decades in the sensing and instrumental techniques for odor quantitation, it still remains of utmost importance to expand our knowledge on the exact nature of various odor types and improve our odor detection abilities.

2. Discussion

The works described in this Special Issue (SI) are thus aimed at covering the topic of collaborative subjects on the application of detection techniques for various odor-related targets which we typically encounter in our everyday livelihood by mainly focusing on the following subjects: (1) sampling techniques for odor, fragrance, and related components; (2) olfactometry; (3) electronic noses; (4) advanced instrumentation (e.g., combination of thermal desorption with GC-MS or MS-MS, GC-GC, etc.); and (5) all other available or emerging tools for odor sensing.

A total of 15 articles were finally published in this special issue to cover the topic of sensing of various odorants and odor-related phenomena with the aid of diverse instrumental configurations. The results of this SI can now be classified into several subcategories mainly based on the specific approaches employed by each team of authors. Thus, each of the 15 papers can be classified into one or more specific categories and listed in the appropriate references section. As this SI pursues the introduction of a whole variety of odor detection techniques, it thus offers a nice chance to connect bridges to the world of diverse odor phenomena that exert impacts on our cognition and emotion.

2.1. Sampling Techniques

Two papers from our SI deal with issues covering advances in sampling techniques. Pravin et al. [1] described how the simultaneous sampling of flow and odorants by crustaceans can aid searches within a turbulent plume. In addition, Young et al. [2] introduced the application of receiver operating characteristic (ROC) curves based on different sampling and detection approaches.

2.4. Advanced Instrumentation

In this section, we focused on the combination of thermal desorption and GC-MS method for detecting volatiles and odorants. Kim et al. [10] provided the method to carry out a quantitative analysis of fragrance and odorants from strawberries. Pandey et al. [11] introduced methods to measure major odorants released as urinary volatiles. Covington et al. [12] introduced a novel tool for diagnosing bile acid diarrhoea. Paul and Park [13] identified volatiles produced by Cladosporium cladosporioides CL-1, a fungal biocontrol agent.

2.5. Emerging Techniques

Zarzo [14] dealt with a fresh scent in perfumery to find correlations between perceptual freshness and substantivity. Finally, Soso et al. [15] presented a unique review on the chemical and sensory characterization of scent-markings in large wild mammals.

Acknowledgments

This work was supported by a grant from the National Research Foundation of Korea (NRF) funded by the Ministry of Education, Science and Technology (MEST) (No. 2009-0093848).